Hi everyone,

I'm starting this thread first to lay out in Stan Meyer's own words what his process is and how nitrogen is the key to making his water fuel.

If you believe contrary - DO NOT POST HERE - go start another thread and discuss resonant circuits, etc... this thread is to explain the very key that makes a real fuel that can be used in an engine.

So many people are fixated on the water cells, but only a very small handful of people are paying attention to his earlier work that reveals his secret.

First of all, this all comes down to burning the water gas. But as most of us know, a "HHO" gas from a common ducted water cell will just give you a quick pop and you cannot sustain a flame. I'm not talking about a pressurized Brown's Gas torch flame, I'm talking about a slower and cooler burning flame that allows you to get the thermal energy from the water fuel. Stan Meyer was very, very clear about this throughout his work over the entire course of time that he was involved in this research and development.

He said that to control the burn rate of the water fuel, you have to mix non-combustible gases with it. That includes non-combustible gases from 1) the water has 17%+ dissolved gases according to him, 2) from the ambient air going into the intake, and 3) from the exhaust gases recycling back to mix with the water gas - of course that exhaust gas will contain non-combustible gases from sources 1 & 2.

I had a special interest in nitrogen from some other technologies so that was in the back of my mind as being a possibility and that dealt mostly with allotropic or active nitrogen. That is essentially ionized nitrogen atoms that are heavily positively charged. It was brought to my attention a few years ago that NITROGEN was the non-combustible gas that Meyer was talking about specifically. The nitrogen alarm went off, I re-looked at Stan Meyer's work, and there it was plain as day - NITROGEN indeed IS the non-combustible gas that Meyer was referring to. It certainly wasn't the 1% trace gases that some "experts" are claiming.

When plain HHO is ignited, it detonates instead of actually giving any real thermal combustion. The atoms and molecules just combine instantly to form a water molecule and there was a shrinkage in the volume that the gasses occupied. HHO is a mixture of about a dozen hydrogen based molecules and atoms and oxygen based molecules and atoms. It is not just a re-arranged water molecule. It works wonders as a torch flame and as a fuel supplement, but for fuel supplementation, the real benefit is coming form the reactive oxygen molecules stripping electrons from the hydrocarbon molecules breaking them into smaller pieces. That give you more BTU's our of the same amount of fuel that was put into the combustion chamber. This is the model that makes sense to me anyway and in any case, it is not the exact subject of this thread.

The water is always touted as being such a wonderful byproduct - BUT, what if... that is actually what robs you of the energy that is lying right there in the hydrogen and you only get a little teaser from it.

With electrolysis, nitrogen gases in the water also split to create atomic nitrogen. Nitrogen is normally very difficult to split and it has a triple electron bond - the strongest normal bond in nature. But when you do strip those electrons away, you can have a nitrogen atom that is +3 charge - it is a very strong vacuum cleaner for anything negatively charged such as some of the HHO molecules and atoms that happen to be negatively charged. Things seem to happen easier when done in water or with water. Sir Humphrey Davy said in 1807 that electrolytic hydrogen will bind with nitrogen in the presence of water when normal hydrogen will not!

Now when we dilute the HHO gases with nitrogen, much of this nitrogen is ionized through the combustion and electrolysis processes. When there is atomic nitrogen, the hydrogen can attach to it creating traces of ammonia (NH3), some oxygen can bond creating traces of nitrous oxide (N2O) and other molecules. Each molecule of this is one less water molecule that forms and you were able to get more thermal energy out of the same amount of water gas that if you didn't have the nitrogen dilution. This allows the water fuel (with nitrogen) to burn slower and cooler - you get the thermal energy out of it - real combustion and not a quick Brown's Gas pop.

The slow burning flames from water are the foundation of Stan Meyer's work - this is his logo. It all started with this. That is not Brown's Gas torch flames rising from the water, those are slow burning "candle flames", which is what you want for a sole fuel for an engine and not just a supplement. It's been in front of everybody's eyes since the beginning. As the only fuel, and to get enough combustion so that the engine can give enough power to turn a generator to create enough electricity to make enough fuel, this process is what is required according to Stan Meyer. This idea is embodied in every single part of his work with water fuel.


(Stan Meyer's Logo)

Stanley Meyer says word for word: "the velocity of hydrogen is so great that the hydrogen ensuing from a nozzle will not under ordinary circumstances sustain a flame. Therefore, to sustain a flame at a nozzle attached to a hydrogen generator the burning velocity of the hydrogen gas must be reduced. "

This is where it starts when it comes to understanding what Stan Meyer was up to - "...the burning velocity of the hydrogen gas must be reduced."

• and other non-volatile gasses such as oxygen and nitrogen. The hydrogen gas with the attendant non-volatile gasses in a controlled ratio are fed via a line to a controlled air intake system. The combined hydrogen, non-volatile gasses, and the air after intermixing are fed to a combustion chamber wherein the mixture is ignited. The exhaust gasses of the combustion chamber are returned in a closed loop arrangement to the mixing chamber for the mixture of volatile as the non-combustible gasses.
• [0006] More specifically, the generated hydrogen gas is fed to a gas mixing chamber, wherein the hydrogen gas is inter- mixed with non-combustible gasses. The mixture is fed to a carburator (air intake mixture) system.
• [0007] The gas mixture is'fed through nozzle to chamber in a jet spray. Valve or gate controls the amount of air intake to the jet spray. The gasses combine with the air to form a gas mixture of hydrogen, non-volatile gas, and oxygen. The mixture now combustible, but not volatile, is entered into a combustion chamber"

Meyer defines non-volatile NITROGEN as a non-volatile gas.

He also defines the non-volatile gases as being synonymous with using the term non-combustible gases.

The gases combine with AIR to form a gas mixture of hydrogen, non-volatile gas (NITROGEN) and oxygen. The mixture now combustible, but NOT VOLATILE, is not entered into the combustion chamber.

Plain water gas from the cell is EXTREMELY VOLATILE. That is just the way the so-called HHO gas is. It becomes NON-VOLATILE by blending it with NITROGEN! And THAT is the key to how he ran an engine on water, air and electricity. He wasn't making big amounts of gas. He started off with common flat plated electrolysis cells with pulsed DC. No VIC and all the resonance business. That all came after and is NOT foundational to the real foundation of Stan Meyer's technology. the real foundation is a simple pulsed dc electrolysis cell gas production is diluted with NITROGEN. Without the nitrogen, the water gas is very volatile and is not in the preferred combustible state that is needed for an engine. And you can take a look at adding a magnetic coil around the pipes as well as applying a vacuum to the cell, but this is the basic concept.

Look at this nozzle...





You can see the HHO from the bottom blends with ambient air and then it gets burned. The exhaust from the flame goes to the environment and some is recaptured to go dilute the hho and ambient air mix to be reburned.